PROFESSOR PAULIN DO NOT TURN OVER UNTIL INSTRUCTED …apaulin/16AFinal(Practice3... · 2017. 12....
Transcript of PROFESSOR PAULIN DO NOT TURN OVER UNTIL INSTRUCTED …apaulin/16AFinal(Practice3... · 2017. 12....
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MATH 16A FINAL EXAM (PRACTICE 3)
PROFESSOR PAULIN
DO NOT TURN OVER UNTILINSTRUCTED TO DO SO.
CALCULATORS ARE NOT PERMITTED
YOU MAY USE YOUR OWN BLANKPAPER FOR ROUGH WORK
REMEMBER THIS EXAM IS GRADED BYA HUMAN BEING. WRITE YOUR
SOLUTIONS NEATLY ANDCOHERENTLY, OR THEY RISK NOT
RECEIVING FULL CREDIT
THIS EXAM WILL BE ELECTRONICALLYSCANNED. MAKE SURE YOU WRITE ALLSOLUTIONS IN THE SPACES PROVIDED.YOU MAY WRITE SOLUTIONS ON THEBLANK PAGE AT THE BACK BUT BESURE TO CLEARLY LABEL THEM
Name and section:
GSI’s name:
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Math 16A Final Exam (Practice 3)
This exam consists of 10 questions. Answer the questions in thespaces provided.
1. Calculate the following derivatives (you do not need to use limits):
(a)d
dx(2x − x2)
Solution:
(b)d
du(u1/3 ln(u))
Solution:
(c)d2
dx2(ln(
(x− 1)4x
x+ 1))
Solution:
PLEASE TURN OVER
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Math 16A Final Exam (Practice 3), Page 2 of 10
2. Calculate the following integrals:
(a) ∫ √2x− 1dx
Solution:
(b) ∫2x
2x + 1dx
Solution:
(c) ∫ 2
1
3√
ln(x) + 3
xdx
Solution:
PLEASE TURN OVER
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Math 16A Final Exam (Practice 3), Page 3 of 10
3. Using the limit definition, calculate the derivative of f(x) = 1√x.
Solution:
PLEASE TURN OVER
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Math 16A Final Exam (Practice 3), Page 4 of 10
4. A product is being sold. The supply equation is given by
p = q2 + 2q + 1.
The demand equation is given by
p =1000
q + 1.
(a) Calculate the elasticity at the equilibrium.
Solution:
(b) Calculate the consumer surplus.
Solution:
PLEASE TURN OVER
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Math 16A Final Exam (Practice 3), Page 5 of 10
5. Find the equation of the tangent line at (2, 1) of the following curve:
3(x2 + y2)2 = 25(x2 − y2)
Solution:
PLEASE TURN OVER
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Math 16A Final Exam (Practice 3), Page 6 of 10
6. Determine the relative extrema of the following function:
f(x) = xe(x2−3x).
Are there any absolute extrema?
Solution:
PLEASE TURN OVER
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Math 16A Final Exam (Practice 3), Page 7 of 10
7. A drink will be packaged in cylindrical cans with volume 40in3. The top and bottom ofthe can cost 4 cents per square inch. The sides cost 3 cents per square inch. Determinethe dimensions of the can which minimize costs.
Solution:
PLEASE TURN OVER
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Math 16A Final Exam (Practice 3), Page 8 of 10
8. Sketch the following curve. If they exist, be sure to indicate relative extrema and inflec-tion points. Show your working on this page and draw the graph on the next page.
y =3x
x− 2
Solution:
PLEASE TURN OVER
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Math 16A Final Exam (Practice 3), Page 9 of 10
9. Let f(x) = x5 − 2 ln((x + 20)3) and g(x) = x3 − 6 ln(x + 20). Calculate the area of theregion bounded by y = f(x) and y = g(x).
Solution:
PLEASE TURN OVER
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Math 16A Final Exam (Practice 3), Page 10 of 10
10. Two cars are travelling directly towards each other on a straight road. The first car istravelling at 3 metres per second. The second car is travelling at 6 metres per second.When they are 6 metres apart they simultaneously apply the brakes. The first car decel-erates at a constant rate of 2 metres per second per second. The second car deceleratesat a constant rate of 4 metres per second per second.
(a) (15 points) How long after applying the brakes will the cars collide? Carefullyjustify your answer. Hint: If t is the time in seconds after they both apply thebrakes, first calculate s1(t) and s2(t), position functions for the first and second carrespectively.
Solution:
(b) (5 points) Determine the velocity of each car when they collide.
Solution:
END OF EXAM